氢电极

qīng diàn jí
  • hydrogen electrode
氢电极氢电极
氢电极[qīng diàn jí]
  1. 用氢电极测定HCl溶液的平均活度系数是费事的,玻璃电极的使用提供了一个快速、简便的测量方法。

    Classical methods of determining the mean ionic activity coefficient of the hydrochloric acid with hydrogen electrode are Laborious . The use of glass electrode affords a fast simple method for making this measurement .

  2. SOEC电解质与氢电极的流延制备、共烧结及性能

    Preparation and co-Sintering of Electrolyte and Hydrogen Electrode via Tape Casting and Its Performances for SOEC

  3. Cr2O3掺杂对混合稀土贮氢电极性能影响的研究

    Study of properties of hydrogen storage electrode modified with chromic oxide

  4. 发现Pt-Ni-La/C是一种很好的氢电极催化剂。

    The results show that Pt Ni La / C is a good catalyst used for hydrogen oxidation in alkaline fuel cells .

  5. 本文首先全面评述了国内外关于Mg基贮氢电极合金的研究与开发的进展,并分析了目前存在的主要问题,特别是电极合金循环容量衰退较快的问题。

    In this thesis , domestic and foreign literatures on Mg-based hydrogen storage electrode alloys were exhaustively reviewed first .

  6. 以多元合金化改进球磨Mg基贮氢电极合金循环稳定性的研究

    A Study on the Improvement of Cycling Stability of Ball-milled Mg-based Hydrogen Storage Electrode Alloys by Means of Multi-component Alloying

  7. 提高AB5型贮氢电极合金低温电化学性能研究

    Improvement of the Low Temperature Electrochemical Performance of AB_5-type Hydrogen Storage Alloy

  8. 低钴AB5型稀土系贮氢电极合金的研究

    Rare Earth-Based AB_5 Type Electrode Hydrogen Storage Alloy with Low Content Cobalt

  9. 脉冲电沉积Ni-P合金析氢电极的研究

    Study of Ni-P alloy prepared by pulse current electrodeposition for hydrogen evolution

  10. 气体雾化贮氢电极合金Ml(Ni,Co,Mn,Ti)5的活化性能

    Activation of hydrogen-storage electrode alloy ml ( ni , co , mn , ti ) _5 produced by gas atomization

  11. Co替代Ni对A2B7型贮氢电极合金相结构及电化学性能的影响

    Effects of substitution of Co for the Structure and Electrochemical Properties of La-Mg-Ni System A_2B_7-type Hydrogen Storage Alloys

  12. Y/Mg掺杂AB5型贮氢电极合金的结构与电化学性能研究

    The Structure and Electrochemical Properties of AB_5-type Hydrogen Storage Alloys Doped with Y / Mg

  13. SPE析氢电极的研究状况

    Development status of hydrogen evolution electrode for SPE

  14. AB2型锆基Laves相合金及贮氢电极

    AB_2 Type Zr-Based Laves Phase Alloys and Hydrogen Absorbing Electrodes

  15. 表面电镀镍pH值对La-Mg-Ni系贮氢电极的影响

    Effects of pH value of surface electroplating Ni to the La-Mg-Ni hydrogen storage electrode

  16. 气体雾化复相RE(NiAlCu)x微晶贮氢电极合金

    Multi-Phase RE ( NiAlCu ) _x Microcrystalline Hydrogen-Stroage Electrode Alloy by Gas-Atomization

  17. 讨论了电解质浓度和氢气压力对低载量贵金属(Pt、Pd)催化氢电极过程的影响。

    The effect of electrolyte concentration and hydrogen pressure on hydrogen electrode process catalyzed by noble metal ( Pt , Pd ) have been studied .

  18. V,Mn和Co对AB2型贮氢电极合金Zr-Cr-Ni相结构和电化学性质的影响

    Effect of Alloying with Mn , V on Phase Structures and Electrochemical Properties of Zr-Cr-Ni Based AB_2 Hydrogen Storage Electrode Alloys

  19. 熔体快淬对AB2型Laves相储氢电极合金循环寿命的影响

    The Effect of Rapid Quenching on the Cycle Lives of H_2-Storage Electrode Alloys with AB_2 Laves Phase

  20. Al含量对MLNi(4-x)MnAlx贮氢电极性能的影响

    Influences of Al Contents on electrochemical properties of mlni_ ( 4-x ) mnal_x hydrogen storage electrodes

  21. 锆系Laves相贮氢电极材料的研究进展

    The Development of Zr-Based Laves Phase Hydrogen Storage Eleetrode Materials

  22. 然后,进一步就多元合金化和复合球磨改性处理对V基贮氢电极合金相结构及电化学性能的影响进行了详细的研究,力求逐步优化合金的相结构并提高合金的综合性能。

    Whereafter , the research scheme for improving the phase structures and electrochemical performance of V-based hydrogen storage electrode alloys by means of multi-component alloying and ball-milling was chosen and the method of step-by-step optimization was adopted .

  23. Zr基AB2型Laves相贮氢电极合金由于具有较高的贮氢容量和较好的循环稳定性,作为Ni/MH电池的负极材料,一直受到广泛的关注。

    Zr-based AB_2 type Laves phase hydrogen storage alloy , which is regarded as the promising electrode material , has been extensively investigated , because of its much higher discharge capacity and longer life .

  24. Zr-Mn-V-Ni储氢电极合金中的Zr-Ni相形成及其晶体结构研究

    Occurrence and Crystal Structure of Zr-Ni Phases in the Zr-Mn-V-Ni Laves Phase Hydrogen Storage Electrode Alloys

  25. 分别从合金结构、热力学、成分及制备方法等方面进行总结,认识到循环稳定性差是AB3型贮氢电极合金目前存在的最主要问题,并就如何改善合金循环稳定性的问题进行了讨论。

    Introduces its structure , the thermodynamic properties , the compositions and the preparation ; discusses how to improve the poor cyclic stability , which is considered the greatest obstacle to application of AB_3-type hydrogen - storage electrode alloys .

  26. Mg-Fe-Ni非晶储氢电极材料的微结构和电化学性能

    Microstructure and Electrochemical Properties of Amorphous Mg-Fe-Ni Hydrogen Storage Electrode Material

  27. 针对目前贮氢电极合金不满足军用通信电池要求工作温度范围宽的情况,以Ml(NiCoMnTi)5合金为例,系统研究了温度对电化学性能的影响;

    In order to develop some hydrogen storage electrode materials for the ordnance communication battery , the effect of environmental temperature on the electrochemical properties of the Ml ( NiCoMnTi ) 5 alloy has been systematically investigated .

  28. 将涂在碳布上的Pt/C催化剂在125℃下热压在Nafion膜上,制成氢电极和氧电极,用循环伏安和极化方法研究了Pt/C-Nafion膜电极的性能。

    The hydrogen and oxygen electrodes were prepared by hot-pressing the Pt / C coated on carbon cloth to Nafion membrane at 125C - The performances of Pt / C-Nafion membrane electrode were investigated by cyclic voltammetry and polarization techniques .

  29. 提出一种用以改善AB5型贮氢电极合金的综合电化学性能的新方法,即采用一定强度的外加磁场对电极进行磁化处理,以期提高电极合金的综合电化学性能。

    A magnetization treatment was proposed firstly to improve the electrochemical prop - erties of hydrogen storage electrode alloy in this paper .

  30. 梯度化设计后的氢电极制备的单体电解池的制氢性能明显高于非梯度化的SOEC。

    The hydrogen production performance of the single SOEC with optimized gradient hydrogen electrodes is obvious higher than that of cells with non-gradient hydrogen electrodes . 3 .